'use strict';

var d3 = require('@plotly/d3');
var tinycolor = require('tinycolor2');

var Plots = require('../../plots/plots');
var Registry = require('../../registry');
var Axes = require('../../plots/cartesian/axes');
var dragElement = require('../dragelement');
var Lib = require('../../lib');
var strTranslate = Lib.strTranslate;
var extendFlat = require('../../lib/extend').extendFlat;
var setCursor = require('../../lib/setcursor');
var Drawing = require('../drawing');
var Color = require('../color');
var Titles = require('../titles');
var svgTextUtils = require('../../lib/svg_text_utils');
var flipScale = require('../colorscale/helpers').flipScale;

var handleAxisDefaults = require('../../plots/cartesian/axis_defaults');
var handleAxisPositionDefaults = require('../../plots/cartesian/position_defaults');
var axisLayoutAttrs = require('../../plots/cartesian/layout_attributes');

var alignmentConstants = require('../../constants/alignment');
var LINE_SPACING = alignmentConstants.LINE_SPACING;
var FROM_TL = alignmentConstants.FROM_TL;
var FROM_BR = alignmentConstants.FROM_BR;

var cn = require('./constants').cn;

function draw(gd) {
    var fullLayout = gd._fullLayout;

    var colorBars = fullLayout._infolayer
        .selectAll('g.' + cn.colorbar)
        .data(makeColorBarData(gd), function(opts) { return opts._id; });

    colorBars.enter().append('g')
        .attr('class', function(opts) { return opts._id; })
        .classed(cn.colorbar, true);

    colorBars.each(function(opts) {
        var g = d3.select(this);

        Lib.ensureSingle(g, 'rect', cn.cbbg);
        Lib.ensureSingle(g, 'g', cn.cbfills);
        Lib.ensureSingle(g, 'g', cn.cblines);
        Lib.ensureSingle(g, 'g', cn.cbaxis, function(s) { s.classed(cn.crisp, true); });
        Lib.ensureSingle(g, 'g', cn.cbtitleunshift, function(s) { s.append('g').classed(cn.cbtitle, true); });
        Lib.ensureSingle(g, 'rect', cn.cboutline);

        var done = drawColorBar(g, opts, gd);
        if(done && done.then) (gd._promises || []).push(done);

        if(gd._context.edits.colorbarPosition) {
            makeEditable(g, opts, gd);
        }
    });

    colorBars.exit()
        .each(function(opts) { Plots.autoMargin(gd, opts._id); })
        .remove();

    colorBars.order();
}

function makeColorBarData(gd) {
    var fullLayout = gd._fullLayout;
    var calcdata = gd.calcdata;
    var out = [];

    // single out item
    var opts;
    // colorbar attr parent container
    var cont;
    // trace attr container
    var trace;
    // colorbar options
    var cbOpt;

    function initOpts(opts) {
        return extendFlat(opts, {
            // fillcolor can be a d3 scale, domain is z values, range is colors
            // or leave it out for no fill,
            // or set to a string constant for single-color fill
            _fillcolor: null,
            // line.color has the same options as fillcolor
            _line: {color: null, width: null, dash: null},
            // levels of lines to draw.
            // note that this DOES NOT determine the extent of the bar
            // that's given by the domain of fillcolor
            // (or line.color if no fillcolor domain)
            _levels: {start: null, end: null, size: null},
            // separate fill levels (for example, heatmap coloring of a
            // contour map) if this is omitted, fillcolors will be
            // evaluated halfway between levels
            _filllevels: null,
            // for continuous colorscales: fill with a gradient instead of explicit levels
            // value should be the colorscale [[0, c0], [v1, c1], ..., [1, cEnd]]
            _fillgradient: null,
            // when using a gradient, we need the data range specified separately
            _zrange: null
        });
    }

    function calcOpts() {
        if(typeof cbOpt.calc === 'function') {
            cbOpt.calc(gd, trace, opts);
        } else {
            opts._fillgradient = cont.reversescale ?
                flipScale(cont.colorscale) :
                cont.colorscale;
            opts._zrange = [cont[cbOpt.min], cont[cbOpt.max]];
        }
    }

    for(var i = 0; i < calcdata.length; i++) {
        var cd = calcdata[i];
        trace = cd[0].trace;
        var moduleOpts = trace._module.colorbar;

        if(trace.visible === true && moduleOpts) {
            var allowsMultiplotCbs = Array.isArray(moduleOpts);
            var cbOpts = allowsMultiplotCbs ? moduleOpts : [moduleOpts];

            for(var j = 0; j < cbOpts.length; j++) {
                cbOpt = cbOpts[j];
                var contName = cbOpt.container;
                cont = contName ? trace[contName] : trace;

                if(cont && cont.showscale) {
                    opts = initOpts(cont.colorbar);
                    opts._id = 'cb' + trace.uid + (allowsMultiplotCbs && contName ? '-' + contName : '');
                    opts._traceIndex = trace.index;
                    opts._propPrefix = (contName ? contName + '.' : '') + 'colorbar.';
                    opts._meta = trace._meta;
                    calcOpts();
                    out.push(opts);
                }
            }
        }
    }

    for(var k in fullLayout._colorAxes) {
        cont = fullLayout[k];

        if(cont.showscale) {
            var colorAxOpts = fullLayout._colorAxes[k];

            opts = initOpts(cont.colorbar);
            opts._id = 'cb' + k;
            opts._propPrefix = k + '.colorbar.';
            opts._meta = fullLayout._meta;

            cbOpt = {min: 'cmin', max: 'cmax'};
            if(colorAxOpts[0] !== 'heatmap') {
                trace = colorAxOpts[1];
                cbOpt.calc = trace._module.colorbar.calc;
            }

            calcOpts();
            out.push(opts);
        }
    }

    return out;
}

function drawColorBar(g, opts, gd) {
    var isVertical = opts.orientation === 'v';
    var len = opts.len;
    var lenmode = opts.lenmode;
    var thickness = opts.thickness;
    var thicknessmode = opts.thicknessmode;
    var outlinewidth = opts.outlinewidth;
    var borderwidth = opts.borderwidth;
    var bgcolor = opts.bgcolor;
    var xanchor = opts.xanchor;
    var yanchor = opts.yanchor;
    var xpad = opts.xpad;
    var ypad = opts.ypad;
    var optsX = opts.x;
    var optsY = isVertical ? opts.y : 1 - opts.y;

    var isPaperY = opts.yref === 'paper';
    var isPaperX = opts.xref === 'paper';

    var fullLayout = gd._fullLayout;
    var gs = fullLayout._size;

    var fillColor = opts._fillcolor;
    var line = opts._line;
    var title = opts.title;
    var titleSide = title.side;

    var zrange = opts._zrange ||
        d3.extent((typeof fillColor === 'function' ? fillColor : line.color).domain());

    var lineColormap = typeof line.color === 'function' ?
        line.color :
        function() { return line.color; };
    var fillColormap = typeof fillColor === 'function' ?
        fillColor :
        function() { return fillColor; };

    var levelsIn = opts._levels;
    var levelsOut = calcLevels(gd, opts, zrange);
    var fillLevels = levelsOut.fill;
    var lineLevels = levelsOut.line;

    // we calculate pixel sizes based on the specified graph size,
    // not the actual (in case something pushed the margins around)
    // which is a little odd but avoids an odd iterative effect
    // when the colorbar itself is pushing the margins.
    // but then the fractional size is calculated based on the
    // actual graph size, so that the axes will size correctly.
    var thickPx = Math.round(thickness * (thicknessmode === 'fraction' ? (isVertical ? gs.w : gs.h) : 1));
    var thickFrac = thickPx / (isVertical ? gs.w : gs.h);
    var lenPx = Math.round(len * (lenmode === 'fraction' ? (isVertical ? gs.h : gs.w) : 1));
    var lenFrac = lenPx / (isVertical ? gs.h : gs.w);

    var posW = isPaperX ? gs.w : gd._fullLayout.width;
    var posH = isPaperY ? gs.h : gd._fullLayout.height;

    // x positioning: do it initially just for left anchor,
    // then fix at the end (since we don't know the width yet)
    var uPx = Math.round(isVertical ?
        optsX * posW + xpad :
        optsY * posH + ypad
    );

    var xRatio = {center: 0.5, right: 1}[xanchor] || 0;
    var yRatio = {top: 1, middle: 0.5}[yanchor] || 0;

    // for dragging... this is getting a little muddled...
    var uFrac = isVertical ?
        optsX - xRatio * thickFrac :
        optsY - yRatio * thickFrac;

    // y/x positioning (for v/h) we can do correctly from the start
    var vFrac = isVertical ?
        optsY - yRatio * lenFrac :
        optsX - xRatio * lenFrac;

    var vPx = Math.round(isVertical ?
        posH * (1 - vFrac) :
        posW * vFrac
    );

    // stash a few things for makeEditable
    opts._lenFrac = lenFrac;
    opts._thickFrac = thickFrac;
    opts._uFrac = uFrac;
    opts._vFrac = vFrac;

    // stash mocked axis for contour label formatting
    var ax = opts._axis = mockColorBarAxis(gd, opts, zrange);

    // position can't go in through supplyDefaults
    // because that restricts it to [0,1]
    ax.position = thickFrac + (isVertical ?
        optsX + xpad / gs.w :
        optsY + ypad / gs.h
    );

    var topOrBottom = ['top', 'bottom'].indexOf(titleSide) !== -1;

    if(isVertical && topOrBottom) {
        ax.title.side = titleSide;
        ax.titlex = optsX + xpad / gs.w;
        ax.titley = vFrac + (title.side === 'top' ? lenFrac - ypad / gs.h : ypad / gs.h);
    }

    if(!isVertical && !topOrBottom) {
        ax.title.side = titleSide;
        ax.titley = optsY + ypad / gs.h;
        ax.titlex = vFrac + xpad / gs.w; // right side
    }

    if(line.color && opts.tickmode === 'auto') {
        ax.tickmode = 'linear';
        ax.tick0 = levelsIn.start;
        var dtick = levelsIn.size;
        // expand if too many contours, so we don't get too many ticks
        var autoNtick = Lib.constrain(lenPx / 50, 4, 15) + 1;
        var dtFactor = (zrange[1] - zrange[0]) / ((opts.nticks || autoNtick) * dtick);
        if(dtFactor > 1) {
            var dtexp = Math.pow(10, Math.floor(Math.log(dtFactor) / Math.LN10));
            dtick *= dtexp * Lib.roundUp(dtFactor / dtexp, [2, 5, 10]);
            // if the contours are at round multiples, reset tick0
            // so they're still at round multiples. Otherwise,
            // keep the first label on the first contour level
            if((Math.abs(levelsIn.start) / levelsIn.size + 1e-6) % 1 < 2e-6) {
                ax.tick0 = 0;
            }
        }
        ax.dtick = dtick;
    }

    // set domain after init, because we may want to
    // allow it outside [0,1]
    ax.domain = isVertical ? [
        vFrac + ypad / gs.h,
        vFrac + lenFrac - ypad / gs.h
    ] : [
        vFrac + xpad / gs.w,
        vFrac + lenFrac - xpad / gs.w
    ];

    ax.setScale();

    g.attr('transform', strTranslate(Math.round(gs.l), Math.round(gs.t)));

    var titleCont = g.select('.' + cn.cbtitleunshift)
        .attr('transform', strTranslate(-Math.round(gs.l), -Math.round(gs.t)));

    var ticklabelposition = ax.ticklabelposition;
    var titleFontSize = ax.title.font.size;

    var axLayer = g.select('.' + cn.cbaxis);
    var titleEl;
    var titleHeight = 0;
    var titleWidth = 0;

    function drawTitle(titleClass, titleOpts) {
        var dfltTitleOpts = {
            propContainer: ax,
            propName: opts._propPrefix + 'title',
            traceIndex: opts._traceIndex,
            _meta: opts._meta,
            placeholder: fullLayout._dfltTitle.colorbar,
            containerGroup: g.select('.' + cn.cbtitle)
        };

        // this class-to-rotate thing with convertToTspans is
        // getting hackier and hackier... delete groups with the
        // wrong class (in case earlier the colorbar was drawn on
        // a different side, I think?)
        var otherClass = titleClass.charAt(0) === 'h' ?
            titleClass.substr(1) :
            'h' + titleClass;
        g.selectAll('.' + otherClass + ',.' + otherClass + '-math-group').remove();

        Titles.draw(gd, titleClass, extendFlat(dfltTitleOpts, titleOpts || {}));
    }

    function drawDummyTitle() {
        // draw the title so we know how much room it needs
        // when we squish the axis.
        // On vertical colorbars this only applies to top or bottom titles, not right side.
        // On horizontal colorbars this only applies to right, etc.

        if(
            (isVertical && topOrBottom) ||
            (!isVertical && !topOrBottom)
        ) {
            var x, y;

            if(titleSide === 'top') {
                x = xpad + gs.l + posW * optsX;
                y = ypad + gs.t + posH * (1 - vFrac - lenFrac) + 3 + titleFontSize * 0.75;
            }

            if(titleSide === 'bottom') {
                x = xpad + gs.l + posW * optsX;
                y = ypad + gs.t + posH * (1 - vFrac) - 3 - titleFontSize * 0.25;
            }

            if(titleSide === 'right') {
                y = ypad + gs.t + posH * optsY + 3 + titleFontSize * 0.75;
                x = xpad + gs.l + posW * vFrac;
            }

            drawTitle(ax._id + 'title', {
                attributes: {x: x, y: y, 'text-anchor': isVertical ? 'start' : 'middle'}
            });
        }
    }

    function drawCbTitle() {
        if(
            (isVertical && !topOrBottom) ||
            (!isVertical && topOrBottom)
        ) {
            var pos = ax.position || 0;
            var mid = ax._offset + ax._length / 2;
            var x, y;

            if(titleSide === 'right') {
                y = mid;
                x = gs.l + posW * pos + 10 + titleFontSize * (
                    ax.showticklabels ? 1 : 0.5
                );
            } else {
                x = mid;

                if(titleSide === 'bottom') {
                    y = gs.t + posH * pos + 10 + (
                        ticklabelposition.indexOf('inside') === -1 ?
                            ax.tickfont.size :
                            0
                    ) + (
                        ax.ticks !== 'intside' ?
                            opts.ticklen || 0 :
                            0
                    );
                }

                if(titleSide === 'top') {
                    var nlines = title.text.split('<br>').length;
                    y = gs.t + posH * pos + 10 - thickPx - LINE_SPACING * titleFontSize * nlines;
                }
            }

            drawTitle((isVertical ?
                // the 'h' + is a hack to get around the fact that
                // convertToTspans rotates any 'y...' class by 90 degrees.
                // TODO: find a better way to control this.
                'h' :
                'v'
            ) + ax._id + 'title', {
                avoid: {
                    selection: d3.select(gd).selectAll('g.' + ax._id + 'tick'),
                    side: titleSide,
                    offsetTop: isVertical ? 0 : gs.t,
                    offsetLeft: isVertical ? gs.l : 0,
                    maxShift: isVertical ? fullLayout.width : fullLayout.height
                },
                attributes: {x: x, y: y, 'text-anchor': 'middle'},
                transform: {rotate: isVertical ? -90 : 0, offset: 0}
            });
        }
    }

    function drawAxis() {
        if(
            (!isVertical && !topOrBottom) ||
            (isVertical && topOrBottom)
        ) {
            // squish the axis top to make room for the title
            var titleGroup = g.select('.' + cn.cbtitle);
            var titleText = titleGroup.select('text');
            var titleTrans = [-outlinewidth / 2, outlinewidth / 2];
            var mathJaxNode = titleGroup
                .select('.h' + ax._id + 'title-math-group')
                .node();
            var lineSize = 15.6;
            if(titleText.node()) {
                lineSize = parseInt(titleText.node().style.fontSize, 10) * LINE_SPACING;
            }

            var bb;
            if(mathJaxNode) {
                bb = Drawing.bBox(mathJaxNode);
                titleWidth = bb.width;
                titleHeight = bb.height;
                if(titleHeight > lineSize) {
                    // not entirely sure how mathjax is doing
                    // vertical alignment, but this seems to work.
                    titleTrans[1] -= (titleHeight - lineSize) / 2;
                }
            } else if(titleText.node() && !titleText.classed(cn.jsPlaceholder)) {
                bb = Drawing.bBox(titleText.node());
                titleWidth = bb.width;
                titleHeight = bb.height;
            }

            if(isVertical) {
                if(titleHeight) {
                    // buffer btwn colorbar and title
                    // TODO: configurable
                    titleHeight += 5;

                    if(titleSide === 'top') {
                        ax.domain[1] -= titleHeight / gs.h;
                        titleTrans[1] *= -1;
                    } else {
                        ax.domain[0] += titleHeight / gs.h;
                        var nlines = svgTextUtils.lineCount(titleText);
                        titleTrans[1] += (1 - nlines) * lineSize;
                    }

                    titleGroup.attr('transform', strTranslate(titleTrans[0], titleTrans[1]));
                    ax.setScale();
                }
            } else { // horizontal colorbars
                if(titleWidth) {
                    if(titleSide === 'right') {
                        ax.domain[0] += (titleWidth + titleFontSize / 2) / gs.w;
                    }

                    titleGroup.attr('transform', strTranslate(titleTrans[0], titleTrans[1]));
                    ax.setScale();
                }
            }
        }

        g.selectAll('.' + cn.cbfills + ',.' + cn.cblines)
            .attr('transform', isVertical ?
                strTranslate(0, Math.round(gs.h * (1 - ax.domain[1]))) :
                strTranslate(Math.round(gs.w * ax.domain[0]), 0)
            );

        axLayer.attr('transform', isVertical ?
            strTranslate(0, Math.round(-gs.t)) :
            strTranslate(Math.round(-gs.l), 0)
        );

        var fills = g.select('.' + cn.cbfills)
            .selectAll('rect.' + cn.cbfill)
            .attr('style', '')
            .data(fillLevels);
        fills.enter().append('rect')
            .classed(cn.cbfill, true)
            .style('stroke', 'none');
        fills.exit().remove();

        var zBounds = zrange
            .map(ax.c2p)
            .map(Math.round)
            .sort(function(a, b) { return a - b; });

        fills.each(function(d, i) {
            var z = [
                (i === 0) ? zrange[0] : (fillLevels[i] + fillLevels[i - 1]) / 2,
                (i === fillLevels.length - 1) ? zrange[1] : (fillLevels[i] + fillLevels[i + 1]) / 2
            ]
            .map(ax.c2p)
            .map(Math.round);

            // offset the side adjoining the next rectangle so they
            // overlap, to prevent antialiasing gaps
            if(isVertical) {
                z[1] = Lib.constrain(z[1] + (z[1] > z[0]) ? 1 : -1, zBounds[0], zBounds[1]);
            } /* else {
                // TODO: horizontal case
            } */

            // Colorbar cannot currently support opacities so we
            // use an opaque fill even when alpha channels present
            var fillEl = d3.select(this)
            .attr(isVertical ? 'x' : 'y', uPx)
            .attr(isVertical ? 'y' : 'x', d3.min(z))
            .attr(isVertical ? 'width' : 'height', Math.max(thickPx, 2))
            .attr(isVertical ? 'height' : 'width', Math.max(d3.max(z) - d3.min(z), 2));

            if(opts._fillgradient) {
                Drawing.gradient(fillEl, gd, opts._id, isVertical ? 'vertical' : 'horizontalreversed', opts._fillgradient, 'fill');
            } else {
                // tinycolor can't handle exponents and
                // at this scale, removing it makes no difference.
                var colorString = fillColormap(d).replace('e-', '');
                fillEl.attr('fill', tinycolor(colorString).toHexString());
            }
        });

        var lines = g.select('.' + cn.cblines)
            .selectAll('path.' + cn.cbline)
            .data(line.color && line.width ? lineLevels : []);
        lines.enter().append('path')
            .classed(cn.cbline, true);
        lines.exit().remove();
        lines.each(function(d) {
            var a = uPx;
            var b = (Math.round(ax.c2p(d)) + (line.width / 2) % 1);

            d3.select(this)
                .attr('d', 'M' +
                    (isVertical ? a + ',' + b : b + ',' + a) +
                    (isVertical ? 'h' : 'v') +
                    thickPx
                )
                .call(Drawing.lineGroupStyle, line.width, lineColormap(d), line.dash);
        });

        // force full redraw of labels and ticks
        axLayer.selectAll('g.' + ax._id + 'tick,path').remove();

        var shift = uPx + thickPx +
            (outlinewidth || 0) / 2 - (opts.ticks === 'outside' ? 1 : 0);

        var vals = Axes.calcTicks(ax);
        var tickSign = Axes.getTickSigns(ax)[2];

        Axes.drawTicks(gd, ax, {
            vals: ax.ticks === 'inside' ? Axes.clipEnds(ax, vals) : vals,
            layer: axLayer,
            path: Axes.makeTickPath(ax, shift, tickSign),
            transFn: Axes.makeTransTickFn(ax)
        });

        return Axes.drawLabels(gd, ax, {
            vals: vals,
            layer: axLayer,
            transFn: Axes.makeTransTickLabelFn(ax),
            labelFns: Axes.makeLabelFns(ax, shift)
        });
    }

    // wait for the axis & title to finish rendering before
    // continuing positioning
    // TODO: why are we redrawing multiple times now with this?
    // I guess autoMargin doesn't like being post-promise?
    function positionCB() {
        var bb;
        var innerThickness = thickPx + outlinewidth / 2;
        if(ticklabelposition.indexOf('inside') === -1) {
            bb = Drawing.bBox(axLayer.node());
            innerThickness += isVertical ? bb.width : bb.height;
        }

        titleEl = titleCont.select('text');

        var titleWidth = 0;

        var topSideVertical = isVertical && titleSide === 'top';
        var rightSideHorizontal = !isVertical && titleSide === 'right';

        var moveY = 0;

        if(titleEl.node() && !titleEl.classed(cn.jsPlaceholder)) {
            var _titleHeight;

            var mathJaxNode = titleCont.select('.h' + ax._id + 'title-math-group').node();
            if(mathJaxNode && (
                (isVertical && topOrBottom) ||
                (!isVertical && !topOrBottom)
            )) {
                bb = Drawing.bBox(mathJaxNode);
                titleWidth = bb.width;
                _titleHeight = bb.height;
            } else {
                // note: the formula below works for all title sides,
                // (except for top/bottom mathjax, above)
                // but the weird gs.l is because the titleunshift
                // transform gets removed by Drawing.bBox
                bb = Drawing.bBox(titleCont.node());
                titleWidth = bb.right - gs.l - (isVertical ? uPx : vPx);
                _titleHeight = bb.bottom - gs.t - (isVertical ? vPx : uPx);

                if(
                    !isVertical && titleSide === 'top'
                ) {
                    innerThickness += bb.height;
                    moveY = bb.height;
                }
            }

            if(rightSideHorizontal) {
                titleEl.attr('transform', strTranslate(titleWidth / 2 + titleFontSize / 2, 0));

                titleWidth *= 2;
            }

            innerThickness = Math.max(innerThickness,
                isVertical ? titleWidth : _titleHeight
            );
        }

        var outerThickness = (isVertical ?
            xpad :
            ypad
        ) * 2 + innerThickness + borderwidth + outlinewidth / 2;

        var hColorbarMoveTitle = 0;
        if(!isVertical && title.text && yanchor === 'bottom' && optsY <= 0) {
            hColorbarMoveTitle = outerThickness / 2;

            outerThickness += hColorbarMoveTitle;
            moveY += hColorbarMoveTitle;
        }
        fullLayout._hColorbarMoveTitle = hColorbarMoveTitle;
        fullLayout._hColorbarMoveCBTitle = moveY;

        var extraW = borderwidth + outlinewidth;

        // TODO - are these the correct positions?
        var lx = (isVertical ? uPx : vPx) - extraW / 2 - (isVertical ? xpad : 0);
        var ly = (isVertical ? vPx : uPx) - (isVertical ? lenPx : ypad + moveY - hColorbarMoveTitle);

        g.select('.' + cn.cbbg)
        .attr('x', lx)
        .attr('y', ly)
        .attr(isVertical ? 'width' : 'height', Math.max(outerThickness - hColorbarMoveTitle, 2))
        .attr(isVertical ? 'height' : 'width', Math.max(lenPx + extraW, 2))
        .call(Color.fill, bgcolor)
        .call(Color.stroke, opts.bordercolor)
        .style('stroke-width', borderwidth);

        var moveX = rightSideHorizontal ? Math.max(titleWidth - 10, 0) : 0;

        g.selectAll('.' + cn.cboutline)
        .attr('x', (isVertical ? uPx : vPx + xpad) + moveX)
        .attr('y', (isVertical ? vPx + ypad - lenPx : uPx) + (topSideVertical ? titleHeight : 0))
        .attr(isVertical ? 'width' : 'height', Math.max(thickPx, 2))
        .attr(isVertical ? 'height' : 'width', Math.max(lenPx - (isVertical ?
            2 * ypad + titleHeight :
            2 * xpad + moveX
        ), 2))
        .call(Color.stroke, opts.outlinecolor)
        .style({
            fill: 'none',
            'stroke-width': outlinewidth
        });

        var xShift = ((isVertical ? xRatio * outerThickness : 0));
        var yShift = ((isVertical ? 0 : (1 - yRatio) * outerThickness - moveY));
        xShift = isPaperX ? gs.l - xShift : -xShift;
        yShift = isPaperY ? gs.t - yShift : -yShift;

        g.attr('transform', strTranslate(
            xShift,
            yShift
        ));

        if(!isVertical && (
            borderwidth || (
                tinycolor(bgcolor).getAlpha() &&
                !tinycolor.equals(fullLayout.paper_bgcolor, bgcolor)
            )
        )) {
            // for horizontal colorbars when there is a border line or having different background color
            // hide/adjust x positioning for the first/last tick labels if they go outside the border
            var tickLabels = axLayer.selectAll('text');
            var numTicks = tickLabels[0].length;

            var border = g.select('.' + cn.cbbg).node();
            var oBb = Drawing.bBox(border);
            var oTr = Drawing.getTranslate(g);

            var TEXTPAD = 2;

            tickLabels.each(function(d, i) {
                var first = 0;
                var last = numTicks - 1;
                if(i === first || i === last) {
                    var iBb = Drawing.bBox(this);
                    var iTr = Drawing.getTranslate(this);
                    var deltaX;

                    if(i === last) {
                        var iRight = iBb.right + iTr.x;
                        var oRight = oBb.right + oTr.x + vPx - borderwidth - TEXTPAD + optsX;

                        deltaX = oRight - iRight;
                        if(deltaX > 0) deltaX = 0;
                    } else if(i === first) {
                        var iLeft = iBb.left + iTr.x;
                        var oLeft = oBb.left + oTr.x + vPx + borderwidth + TEXTPAD;

                        deltaX = oLeft - iLeft;
                        if(deltaX < 0) deltaX = 0;
                    }

                    if(deltaX) {
                        if(numTicks < 3) { // adjust position
                            this.setAttribute('transform',
                                'translate(' + deltaX + ',0) ' +
                                this.getAttribute('transform')
                            );
                        } else { // hide
                            this.setAttribute('visibility', 'hidden');
                        }
                    }
                }
            });
        }

        // auto margin adjustment
        var marginOpts = {};
        var lFrac = FROM_TL[xanchor];
        var rFrac = FROM_BR[xanchor];
        var tFrac = FROM_TL[yanchor];
        var bFrac = FROM_BR[yanchor];

        var extraThickness = outerThickness - thickPx;
        if(isVertical) {
            if(lenmode === 'pixels') {
                marginOpts.y = optsY;
                marginOpts.t = lenPx * tFrac;
                marginOpts.b = lenPx * bFrac;
            } else {
                marginOpts.t = marginOpts.b = 0;
                marginOpts.yt = optsY + len * tFrac;
                marginOpts.yb = optsY - len * bFrac;
            }

            if(thicknessmode === 'pixels') {
                marginOpts.x = optsX;
                marginOpts.l = outerThickness * lFrac;
                marginOpts.r = outerThickness * rFrac;
            } else {
                marginOpts.l = extraThickness * lFrac;
                marginOpts.r = extraThickness * rFrac;
                marginOpts.xl = optsX - thickness * lFrac;
                marginOpts.xr = optsX + thickness * rFrac;
            }
        } else { // horizontal colorbars
            if(lenmode === 'pixels') {
                marginOpts.x = optsX;
                marginOpts.l = lenPx * lFrac;
                marginOpts.r = lenPx * rFrac;
            } else {
                marginOpts.l = marginOpts.r = 0;
                marginOpts.xl = optsX + len * lFrac;
                marginOpts.xr = optsX - len * rFrac;
            }

            if(thicknessmode === 'pixels') {
                marginOpts.y = 1 - optsY;
                marginOpts.t = outerThickness * tFrac;
                marginOpts.b = outerThickness * bFrac;
            } else {
                marginOpts.t = extraThickness * tFrac;
                marginOpts.b = extraThickness * bFrac;
                marginOpts.yt = optsY - thickness * tFrac;
                marginOpts.yb = optsY + thickness * bFrac;
            }
        }
        var sideY = opts.y < 0.5 ? 'b' : 't';
        var sideX = opts.x < 0.5 ? 'l' : 'r';

        gd._fullLayout._reservedMargin[opts._id] = {};
        var possibleReservedMargins = {
            r: (fullLayout.width - lx - xShift),
            l: lx + marginOpts.r,
            b: (fullLayout.height - ly - yShift),
            t: ly + marginOpts.b
        };

        if(isPaperX && isPaperY) {
            Plots.autoMargin(gd, opts._id, marginOpts);
        } else if(isPaperX) {
            gd._fullLayout._reservedMargin[opts._id][sideY] = possibleReservedMargins[sideY];
        } else if(isPaperY) {
            gd._fullLayout._reservedMargin[opts._id][sideX] = possibleReservedMargins[sideX];
        } else {
            if(isVertical) {
                gd._fullLayout._reservedMargin[opts._id][sideX] = possibleReservedMargins[sideX];
            } else {
                gd._fullLayout._reservedMargin[opts._id][sideY] = possibleReservedMargins[sideY];
            }
        }
    }

    return Lib.syncOrAsync([
        Plots.previousPromises,
        drawDummyTitle,
        drawAxis,
        drawCbTitle,
        Plots.previousPromises,
        positionCB
    ], gd);
}

function makeEditable(g, opts, gd) {
    var isVertical = opts.orientation === 'v';
    var fullLayout = gd._fullLayout;
    var gs = fullLayout._size;
    var t0, xf, yf;

    dragElement.init({
        element: g.node(),
        gd: gd,
        prepFn: function() {
            t0 = g.attr('transform');
            setCursor(g);
        },
        moveFn: function(dx, dy) {
            g.attr('transform', t0 + strTranslate(dx, dy));

            xf = dragElement.align(
                (isVertical ? opts._uFrac : opts._vFrac) + (dx / gs.w),
                isVertical ? opts._thickFrac : opts._lenFrac,
                0, 1, opts.xanchor);
            yf = dragElement.align(
                (isVertical ? opts._vFrac : (1 - opts._uFrac)) - (dy / gs.h),
                isVertical ? opts._lenFrac : opts._thickFrac,
                0, 1, opts.yanchor);

            var csr = dragElement.getCursor(xf, yf, opts.xanchor, opts.yanchor);
            setCursor(g, csr);
        },
        doneFn: function() {
            setCursor(g);

            if(xf !== undefined && yf !== undefined) {
                var update = {};
                update[opts._propPrefix + 'x'] = xf;
                update[opts._propPrefix + 'y'] = yf;
                if(opts._traceIndex !== undefined) {
                    Registry.call('_guiRestyle', gd, update, opts._traceIndex);
                } else {
                    Registry.call('_guiRelayout', gd, update);
                }
            }
        }
    });
}

function calcLevels(gd, opts, zrange) {
    var levelsIn = opts._levels;
    var lineLevels = [];
    var fillLevels = [];
    var l;
    var i;

    var l0 = levelsIn.end + levelsIn.size / 100;
    var ls = levelsIn.size;
    var zr0 = (1.001 * zrange[0] - 0.001 * zrange[1]);
    var zr1 = (1.001 * zrange[1] - 0.001 * zrange[0]);

    for(i = 0; i < 1e5; i++) {
        l = levelsIn.start + i * ls;
        if(ls > 0 ? (l >= l0) : (l <= l0)) break;
        if(l > zr0 && l < zr1) lineLevels.push(l);
    }

    if(opts._fillgradient) {
        fillLevels = [0];
    } else if(typeof opts._fillcolor === 'function') {
        var fillLevelsIn = opts._filllevels;

        if(fillLevelsIn) {
            l0 = fillLevelsIn.end + fillLevelsIn.size / 100;
            ls = fillLevelsIn.size;
            for(i = 0; i < 1e5; i++) {
                l = fillLevelsIn.start + i * ls;
                if(ls > 0 ? (l >= l0) : (l <= l0)) break;
                if(l > zrange[0] && l < zrange[1]) fillLevels.push(l);
            }
        } else {
            fillLevels = lineLevels.map(function(v) {
                return v - levelsIn.size / 2;
            });
            fillLevels.push(fillLevels[fillLevels.length - 1] + levelsIn.size);
        }
    } else if(opts._fillcolor && typeof opts._fillcolor === 'string') {
        // doesn't matter what this value is, with a single value
        // we'll make a single fill rect covering the whole bar
        fillLevels = [0];
    }

    if(levelsIn.size < 0) {
        lineLevels.reverse();
        fillLevels.reverse();
    }

    return {line: lineLevels, fill: fillLevels};
}

function mockColorBarAxis(gd, opts, zrange) {
    var fullLayout = gd._fullLayout;

    var isVertical = opts.orientation === 'v';

    var cbAxisIn = {
        type: 'linear',
        range: zrange,
        tickmode: opts.tickmode,
        nticks: opts.nticks,
        tick0: opts.tick0,
        dtick: opts.dtick,
        tickvals: opts.tickvals,
        ticktext: opts.ticktext,
        ticks: opts.ticks,
        ticklen: opts.ticklen,
        tickwidth: opts.tickwidth,
        tickcolor: opts.tickcolor,
        showticklabels: opts.showticklabels,
        labelalias: opts.labelalias,
        ticklabelposition: opts.ticklabelposition,
        ticklabeloverflow: opts.ticklabeloverflow,
        ticklabelstep: opts.ticklabelstep,
        tickfont: opts.tickfont,
        tickangle: opts.tickangle,
        tickformat: opts.tickformat,
        exponentformat: opts.exponentformat,
        minexponent: opts.minexponent,
        separatethousands: opts.separatethousands,
        showexponent: opts.showexponent,
        showtickprefix: opts.showtickprefix,
        tickprefix: opts.tickprefix,
        showticksuffix: opts.showticksuffix,
        ticksuffix: opts.ticksuffix,
        title: opts.title,
        showline: true,
        anchor: 'free',
        side: isVertical ? 'right' : 'bottom',
        position: 1
    };

    var letter = isVertical ? 'y' : 'x';

    var cbAxisOut = {
        type: 'linear',
        _id: letter + opts._id
    };

    var axisOptions = {
        letter: letter,
        font: fullLayout.font,
        noHover: true,
        noTickson: true,
        noTicklabelmode: true,
        calendar: fullLayout.calendar  // not really necessary (yet?)
    };

    function coerce(attr, dflt) {
        return Lib.coerce(cbAxisIn, cbAxisOut, axisLayoutAttrs, attr, dflt);
    }

    handleAxisDefaults(cbAxisIn, cbAxisOut, coerce, axisOptions, fullLayout);
    handleAxisPositionDefaults(cbAxisIn, cbAxisOut, coerce, axisOptions);

    return cbAxisOut;
}

module.exports = {
    draw: draw
};
